CN102935525B - Double-main-shaft type ultraprecise fly cutting milling machine - Google Patents

Abstract

The invention discloses a double-main-shaft type ultraprecise fly cutting milling machine, and relates to a milling machine which solves the problems of low rigidity and low machining efficiency of a main shaft system of the existing KDP (potassium dihydrogen phosphate) ultraprecise machining machine tool. The milling machine comprises a gantry type machine tool body, a longitudinal linear guide rail system, a left horizontal electric main shaft system, a right horizontal electric main shaft system and an air vibration isolation supporting system, wherein the longitudinal linear guide rail system is arranged at the middle part of the gantry type machine tool body and is fixed on a base; and the left horizontal electric main shaft system is arranged on a left vertical column, the right horizontal electric main shaft system is arranged on the right vertical column, the longitudinal linear guide rail system is arranged between the left horizontal electric main shaft system and the right horizontal electric main shaft system, a left vacuum suction plate are oppositely arranged and the left horizontal electric main shaft system are oppositely arranged, and a right vacuum suction plate and the right horizontal electric main shaft system are oppositely arranged. According to the double-main-shaft type ultraprecise fly cutting milling machine disclosed by the invention, high-precision linear feeding motion, rotation motion of a cutterhead and synchronous cutting of double workpieces are realized, and the guide rail and the main shaft have the advantages of high precision and rigidity by utilizing a hydrostatic pressure control manner.

Description

A kind of Double spindle type ultra-precise fly miller

Technical field

The present invention relates to a kind of milling machine, be specifically related to a kind of Double spindle type ultra-precise fly miller.

Background technology

The functional KDP crystal photoelement of large radius-thickness ratio is widely used in the industry such as national defence, aerospace, due to the particularity of its distinctive function and material character, can only be to adopt ultra-precise fly to cut the process processing of milling to its processing at present, in order to obtain surface and the precision of ultra-smooth and to improve the working (machining) efficiency of crystal, special ultraprecise process equipment has become the content that must study.In real work, the machining accuracy to KDP crystal functional material and surface quality require very high, and requiring it long × wide × high is 430mm × 430mm × 10mm; Surface figure accuracy is less than 0.125 μ m; Surface roughness is less than 5nm (RMS), and the two-sided surperficial depth of parallelism is less than 10 ".At present, the KDP crystal of China processing ultra-precision machine tool uses the mode of gas-static widely, as patent No. ZL200710144867.4, the applying date be December 19 in 2007 day, be called " gantry type ultra-precise fly miller ".The rigidity of machine tool system is higher, is more conducive to obtain higher machining accuracy and surface quality, and also will consider to improve working (machining) efficiency when improving rigidity.But existing KDP crystal processing ultra-precision machine tool rigidity and working (machining) efficiency are all lower, cannot process the KDP crystal photoelement of high accuracy and great surface quality.

Summary of the invention

The present invention for solve existing KDP super-precision machine tools system stiffness, solve ultra-precision machine tool working (machining) efficiency low problem, and then provide a kind of Double spindle type ultra-precise fly miller.

The present invention solves the problems of the technologies described above the technical scheme of taking to be: a kind of Double spindle type ultra-precise fly miller, described milling machine comprises planer-type lathe bed, longitudinally line slideway system, two Horizontal electric axis systems and multiple air vibration isolation support system, two Horizontal electric axis systems are respectively a Horizontal electric axis system left side and the Horizontal electric axis system right side, planer-type lathe bed comprises crossbeam, a column left side, the column right side and pedestal, a column left side and the column right side are oppositely arranged and are all fixed on pedestal, a column left side is positioned at the left end of pedestal, the column right side is positioned at the right-hand member of pedestal, crossbeam and column upper end left and the column right side is affixed, multiple air vibration isolation support systems are fixed on below planer-type lathe bed, longitudinally line slideway system comprises vertical guide rail, vertical rail support plate, vertical upper slide carriage, a slide carriage left side, the slide carriage right side, a vacuum cup left side, the vacuum cup right side, linear electric motors, motor connecting base, motor fixing seat and two vertical lower slide carriages, two vertical lower slide carriages are respectively a vertical lower slide carriage left side and the vertical lower slide carriage right side, the left end of vertical upper slide carriage is fixed on slide carriage upper left, the right-hand member of vertical upper slide carriage is fixed on slide carriage upper right, a slide carriage left side is fixed on vertical lower slide carriage upper left, the slide carriage right side is fixed on vertical lower slide carriage upper right, by vertical upper slide carriage, a slide carriage left side, the slide carriage right side, between a vertical lower slide carriage left side and the vertical lower slide carriage right side, form groove, vertical guide rails assembling in groove and and described groove between form the guide rail chamber of sealing, the lower end of vertical guide rail is affixed by vertical rail support plate and pedestal, the lower end of vertical upper slide carriage is connected with motor connecting base, the upper end of vertical guide rail is connected with motor fixing seat, linear electric motors are fixed between motor connecting base and motor fixing seat, longitudinally line slideway system and two Horizontal electric axis systems are arranged vertically, vacuum cup is left to be oppositely arranged with a Horizontal electric axis system left side, vacuum cup is left affixed with a slide carriage left side, vacuum cup is right to be oppositely arranged with the Horizontal electric axis system right side, vacuum cup is right affixed with the slide carriage right side.

The present invention has following beneficial effect: the present invention has realized the gyration of the motion of high-precision straight-line feed and cutterhead, and guide rail and main shaft all adopted the control mode of fluid pressure, has that precision is high, rigidity advantages of higher.Machining accuracy index of the present invention is high, working (machining) efficiency is high, is applicable to the ultraprecise processing of hard fragility functional material completely.Experimental result shows, the jerk value 0.02 μ m that the main precision index of lathe is hydraulic static spindle, and its axial rigidity can reach 4000N/ μ m, and guide rail movement straightness error is 0.1 μ m/300 and 0.2 μ m/600mm, guide rail rigidity >=4000N/ μ m.In addition, the present invention also has the following advantages: lathe entirety adopts planer-type symmetrical structure to arrange, symmetrical configuration, and layout is simple, and two main shafts cut the effect that can offset axial force simultaneously, favourable to improving machining accuracy; Main shaft adopts horizontal type structure, and adopts the bearing supporting of larger rigidity, has avoided causing due to cutterhead weight the variation of spindle rotation accuracy; Vacuum cup is vertically placed, and is conducive to overcome the distortion of workpiece deadweight generation, and convenient operation, is conducive to the clamping of workpiece; Two main shafts rotate simultaneously, have realized the cutterhead processing work simultaneously on diaxon, adopt hilted broadsword dish with the axis system of existing KDP super-precision machine tools compared with, working (machining) efficiency is doubled.

Brief description of the drawings

Fig. 1 is overall structure front view of the present invention, Fig. 2 is the top view of Fig. 1, Fig. 3 is the left view of Fig. 1, Fig. 4 is the partial enlarged drawing of Fig. 1 at C place, and Fig. 5 is the right view of Fig. 1, and Fig. 6 is the enlarged drawing on Fig. 1 direct current output motor right side, Fig. 7 is the shake enlarged drawing of support system of Fig. 1 hollow air bound, Fig. 8 is a portion enlarged drawing of Fig. 3, and Fig. 9 is the b portion enlarged drawing of Fig. 5, and Figure 10 is the d portion enlarged drawing of Fig. 1.

Detailed description of the invention

Detailed description of the invention one: as shown in Fig. 1～Figure 10, the Double spindle type ultra-precise fly miller of present embodiment, described milling machine comprises planer-type lathe bed 46, longitudinally line slideway system 38, two Horizontal electric axis systems and multiple air vibration isolation support system 37, two Horizontal electric axis systems are respectively Horizontal electric axis system left 49 and the Horizontal electric axis system right side 48, planer-type lathe bed 46 comprises crossbeam 19, the left 45-1 of column, column right 45 and pedestal 31, the left 45-1 of column and the column right side 45 are oppositely arranged and are all fixed on pedestal 31, the left 45-1 of column is positioned at the left end of pedestal 31, the column right side 45 is positioned at the right-hand member of pedestal 31, crossbeam 19 is affixed with the upper end on the left 45-1 of column and the column right side 45, multiple air vibration isolation support systems 37 are fixed on below planer-type lathe bed 46, longitudinally line slideway system 38 comprises vertical guide rail 24, vertical rail support plate 30, vertical upper slide carriage 23, a slide carriage left side 25, the slide carriage right side 51, a vacuum cup left side 26, the vacuum cup right side 44, linear electric motors 20, motor connecting base 21, motor fixing seat 22 and two vertical lower slide carriages, two vertical lower slide carriages are respectively vertical lower slide carriage left 29 and the vertical lower slide carriage right side 52, the left end of vertical upper slide carriage 23 is fixed on a slide carriage left side 25, the right-hand member of vertical upper slide carriage 23 is fixed on the slide carriage right side 51, a slide carriage left side 25 is fixed on a vertical lower slide carriage left side 29, the slide carriage right side 51 is fixed on the vertical lower slide carriage right side 52, by vertical upper slide carriage 23, a slide carriage left side 25, the slide carriage right side 51, between vertical lower slide carriage left 29 and vertical lower slide carriage right 52 5, form groove, vertical guide rail 24 be arranged in groove and and described groove between form the guide rail chamber of sealing, the lower end of vertical guide rail 24 is affixed with pedestal 31 by vertical rail support plate 30, the lower end of vertical upper slide carriage 23 is connected with motor connecting base 21, the upper end of vertical guide rail 24 is connected with motor fixing seat 22, linear electric motors 20 are fixed between motor connecting base 21 and motor fixing seat 22 and (between vertical upper slide carriage 23 and vertical guide rail 24, pass through motor connecting base 21, motor fixing seat 22 is connected and realizes relative motion with linear electric motors 20), longitudinally line slideway system 38 is positioned at the centre of planer-type lathe bed 46 and is arranged on pedestal 31, longitudinally line slideway system 38 and two Horizontal electric axis systems are arranged vertically, vacuum cup left 26 is oppositely arranged with a Horizontal electric axis system left side 49, vacuum cup left 26 is affixed with a slide carriage left side 25, vacuum cup right 44 is oppositely arranged with the Horizontal electric axis system right side 48, vacuum cup right 44 is affixed with the slide carriage right side 51.Two Horizontal electric axis systems can be installed two workpiece simultaneously, cutting when realizing dual-workpiece.

Planer-type lathe bed 46 is mainly used to support the weight of whole other functional part of lathe, and ensures that each parts static position does not change, and has the function of isolating exterior vibration source and vibration damping simultaneously.Because the relatively general lathe of planer-type lathe bed structure is fairly simple, entirety can be selected bulk marble material.Marble material belongs to stone materials, and stable better than cast iron, thermal coefficient of expansion is low, strong to the damping capacity of vibration, hardness is high, wear-resisting and can not get rusty, corrosion-resistant.

Horizontal electric axis system is one of critical component of this ultra-precision machine tool.Its rotating accuracy, rigidity and physical dimension thereof all directly has influence on the machining accuracy of lathe.Main shaft requires to reach high rotating accuracy, smooth running, friction, bearing capacity is large, rigidity is high, its key is used bearing, this lathe is selected hydrodynamic journal liquid polymers, by the thrust plate right side 5, the cutterhead right side 16, the main shaft right side 14, right 9 four parts of axle sleeve and contact gap thereof form fluid pressure and thrust bearing in being connected with high pressure liquid force feed, in like manner, a main shaft left side, a thrust plate left side, a cutterhead left side, left four parts of axle sleeve and contact gap thereof form fluid pressure and a thrust bearing (main shaft left side in being connected with high pressure liquid force feed, a thrust plate left side, a cutterhead left side, an axle sleeve left side does not represent in Fig. 1) as supporting, rigidity is high, precision is high, operate steadily.

Detailed description of the invention two: in conjunction with Fig. 1, Fig. 3 and Fig. 5 explanation, a vacuum cup left side 26 comprises a sucker base left side 39, a control valve left side 41, air inlet control box left 42 and an air inlet pipeline left side 40 described in present embodiment; Sucker base left 39 is affixed with an air inlet control box left side 42, an air inlet control box left side 42 is provided with an air inlet pipeline left side 40, an air inlet control box left side 42 is provided with a control valve left side 41, the air inflow entering in an air inlet control box left side 42 by an air inlet pipeline left side 40 is passed through the regulation on a control valve left side 41, and air inlet control box left 42 is communicated with sucker base left 39; The vacuum cup right side 44 comprises the sucker base right side 55, the control valve right side 56, air inlet control box right 53 and the air inlet pipeline right side 54; Sucker base right 55 is affixed with the air inlet control box right side 53, the air inlet control box right side 53 is provided with the air inlet pipeline right side 54, the air inlet control box right side 53 is provided with the control valve right side 56, the air inflow entering in the air inlet control box right side 53 by the air inlet pipeline right side 54 is passed through the regulation on the control valve right side 56, and air inlet control box right 53 is communicated with sucker base right 55.So design, is convenient to process a vacuum cup left side and the right inside pore of vacuum cup.In present embodiment, undocumented technical characterictic is identical with detailed description of the invention one.

Detailed description of the invention three: in conjunction with Fig. 1 and Fig. 4 explanation, described in present embodiment, Horizontal electric axis system left 49 is identical with the Horizontal electric axis system right side 48 structures and be symmetrical arranged with respect to the vertical center line of planer-type lathe bed 46, the Horizontal electric axis system right side 48 comprises the fixed dam right side 12, the main shaft right side 14, the electric machine support right side 6, the thrust plate right side 5, the cutterhead right side 16, the cutting tool assembly right side 15, the axle sleeve right side 9, axle is the support right side 11, grease chamber's cover right 10 and the direct current output motor right side 4, the column right side 45 is provided with inner chamber, axle is that the support right side 11 is positioned at one end of right 45 inner chambers of column affixed, axle is that support right 11 is affixed with the column right side 45 by fixed dam right 12, the direct current transportation machine right side 4 is arranged in right 45 inner chambers of column and is packed on the column right side 45 by the electric machine support right side 6, the output shaft 3 on the direct current output motor right side 4 is affixed with the one end on the main shaft right side 14 by thrust plate right 5, the other end on the main shaft right side 14 and the cutterhead right side 16 are affixed, between axle sleeve right 9 and the thrust plate right side 5, leave the first clearance D, between axle sleeve right 9 and the cutterhead right side 16, leave the second gap E, the axle sleeve right side 9 is sleeved on the main shaft right side 14, between axle sleeve right 9 and the main shaft right side 14, leave third space F, it is on the support right side 11 that the axle sleeve right side 9 is packed in axle, on the outer wall on the axle sleeve right side 9, be along the circumferential direction processed with the right 9-1 of annular groove, on the axle sleeve right side 9, be processed with multiple axially extending bores right 17 and multiple radial direction through hole right side 43, grease chamber's cover right 10 comprises two semi-ring 10-1, two semi-ring 10-1 are relatively sleeved on the axle sleeve right side 9 and are positioned at the right 9-1 of annular groove, two semi-ring 10-1 docking form grease chamber's cover right 10, between main shaft right 14 and grease chamber's cover right 10, form the right side, grease chamber 50, multiple axially extending bores right 17 are all communicated with grease chamber right 50 with multiple radial direction through hole right 43.In present embodiment, undocumented technical characterictic is identical with detailed description of the invention one.

The direct current output motor right side 4 comprises stator 1 and rotor 2, the rotor 2 on the direct current output motor right side 4 is simultaneously affixed with output shaft 3 and the thrust plate right side 5 on the direct current output motor right side 4, adopt the direct current output motor right side 4 (brushless driving motor) as driving element, owing to there is no brush, therefore between the stator 1 of this motor and rotor 2, there is no moment of friction, directly can produce rotation torque and drive the output shaft 3 on the direct current output motor right side 4 rotate and cut.The structure on a direct current output motor left side and operation principle are identical with the direct current output motor right side 4.

Detailed description of the invention four: in conjunction with Fig. 1 explanation, air vibration isolation support system 37 comprises air cushion plate 33, vibration isolation air cushion 34, studdle 35, holding nut 36 and base for supporting 32 described in present embodiment; Air cushion plate 33 is fixedly installed on the upper end of vibration isolation air cushion 34, and vibration isolation air cushion 34 is connected with holding nut 36 by studdle 35, and the center of base for supporting 32 is provided with connecting hole, and holding nut 36 is fixedly installed in the connecting hole of base for supporting 32.So design, reduces the vibration of lathe bed to improve machining accuracy.In present embodiment, undocumented technical characterictic is identical with detailed description of the invention one, two or three.

Detailed description of the invention five: in conjunction with Fig. 1 explanation, described in present embodiment, on a slide carriage left side 25, be provided with the first oil pocket 28 along its thickness direction, on vertical upper slide carriage 23, be provided with the second oil pocket 28-1 along its thickness direction, on vertical lower slide carriage left 29 and the vertical lower slide carriage right side 52, be respectively equipped with a 3rd oil pocket 28-3 along thickness direction separately, on the slide carriage right side 51, be provided with the 4th oil pocket 28-2 along its thickness direction; Between left 25 adjacently situated surfaces of vertical guide rail 24 and slide carriage, form the first oil sealing surface 27, between vertical guide rail 24 and vertical upper slide carriage 23 adjacently situated surfaces, form the second oil sealing surface 27-1, between vertical guide rail 24 and vertical lower slide carriage left 29 and right 52 adjacently situated surfaces of vertical lower slide carriage, form respectively the 3rd oil sealing surface 27-3, between right 51 adjacently situated surfaces of vertical guide rail 24 and slide carriage, form the 4th oil sealing surface 27-2.Thereby form static pressure oil film.In present embodiment, undocumented technical characterictic is identical with detailed description of the invention one.

Detailed description of the invention six: in conjunction with Fig. 2 explanation, the upper edge of pedestal 31 is provided with boss 47 described in present embodiment.Being convenient to hydraulic oil reclaims.In present embodiment, undocumented technical characterictic is identical with detailed description of the invention one or five.

Operation principle:

The present invention adopts the driving element of high-precision linear electric motors 20 as vertical upper slide carriage 23, make vertical upper slide carriage 23 along vertical guide rail 24 moving linearlies, so just the motion of linear electric motors 20 and power are delivered on slide carriage, drive left and right slide carriage to make ultraprecise low speed and move, realize the ultraprecise straight-line feed motion of lathe.Longitudinally line slideway system 38 connects firmly on pedestal 31 (employing marble pedestal); On left electric chief axis system 49 and right electric chief axis system 48, direct current output motor separately drives respectively corresponding hydraulic static spindle, realize the high-precision rotary motion of hydraulic static spindle, cutterhead is made ultraprecise high speed rotary around hydraulic static spindle, cutterhead drives the diamond cutter high speed rotary on it, and the cutting tool assembly right side 15 on the cutterhead right side 16 can be used for regulating the degree of depth of cutting.A cutting tool assembly left side for cutterhead upper left can be used for regulating the degree of depth (Fig. 1 does not represent) of cutting, and vacuum cup right 44 passes into gases at high pressure with a vacuum cup left side 26, realizes the fixing of workpiece.The Union Movement of vertical guide track system and axis system, has realized the ultraprecise fly cutter Milling Process to part to be processed, longitudinally in line slideway system, two workpiece is installed and two main shafts are worked simultaneously, cutting when can realizing dual-workpiece.

Claims (6)

1. a Double spindle type ultra-precise fly miller, described milling machine comprises planer-type lathe bed (46), longitudinally line slideway system (38), two Horizontal electric axis systems and multiple air vibration isolation support systems (37), it is characterized in that: two Horizontal electric axis systems are respectively a Horizontal electric axis system left side (49) and the Horizontal electric axis system right side (48), planer-type lathe bed (46) comprises crossbeam (19), a column left side (45-1), the column right side (45) and pedestal (31), a column left side (45-1) and the column right side (45) are oppositely arranged and are all fixed on pedestal (31), a column left side (45-1) is positioned at the left end of pedestal (31), the column right side (45) is positioned at the right-hand member of pedestal (31), crossbeam (19) is affixed with the upper end of a column left side (45-1) and the column right side (45), multiple air vibration isolation support systems (37) are fixed on below planer-type lathe bed (46), longitudinally line slideway system (38) comprises vertical guide rail (24), vertical rail support plate (30), vertical upper slide carriage (23), a slide carriage left side (25), the slide carriage right side (51), a vacuum cup left side (26), the vacuum cup right side (44), linear electric motors (20), motor connecting base (21), motor fixing seat (22) and two vertical lower slide carriages, two vertical lower slide carriages are respectively a vertical lower slide carriage left side (29) and the vertical lower slide carriage right side (52), the left end of vertical upper slide carriage (23) is fixed on a slide carriage left side (25), the right-hand member of vertical upper slide carriage (23) is fixed on the slide carriage right side (51), a slide carriage left side (25) is fixed on a vertical lower slide carriage left side (29), the slide carriage right side (51) is fixed on the vertical lower slide carriage right side (52), by vertical upper slide carriage (23), a slide carriage left side (25), the slide carriage right side (51), between a vertical lower slide carriage left side (29) and the vertical lower slide carriage right side (52) five, form groove, vertical guide rail (24) be arranged in groove and and described groove between form the guide rail chamber of sealing, the lower end of vertical guide rail (24) is affixed with pedestal (31) by vertical rail support plate (30), the lower end of vertical upper slide carriage (23) is connected with motor connecting base (21), the upper end of vertical guide rail (24) is connected with motor fixing seat (22), linear electric motors (20) are fixed between motor connecting base (21) and motor fixing seat (22), longitudinally line slideway system (38) is arranged vertically with two Horizontal electric axis systems, a vacuum cup left side (26) is oppositely arranged with a Horizontal electric axis system left side (49), a vacuum cup left side (26) is affixed with a slide carriage left side (25), the vacuum cup right side (44) is oppositely arranged with the Horizontal electric axis system right side (48), the vacuum cup right side (44) is affixed with the slide carriage right side (51).

2. a kind of Double spindle type ultra-precise fly miller according to claim 1, is characterized in that: a described vacuum cup left side (26) comprises a sucker base left side (39), a control valve left side (41), an air inlet control box left side (42) and an air inlet pipeline left side (40); A sucker base left side (39) is affixed with an air inlet control box left side (42), an air inlet control box left side (42) is provided with an air inlet pipeline left side (40), an air inlet control box left side (42) is provided with a control valve left side (41), the air inflow entering in an air inlet control box left side (42) by an air inlet pipeline left side (40) is passed through the regulation on a control valve left side (41), and an air inlet control box left side (42) is communicated with a sucker base left side (39); The vacuum cup right side (44) comprises the sucker base right side (55), the control valve right side (56), the air inlet control box right side (53) and the air inlet pipeline right side (54); The sucker base right side (55) is affixed with the air inlet control box right side (53), the air inlet control box right side (53) is provided with the air inlet pipeline right side (54), the air inlet control box right side (53) is provided with the control valve right side (56), the air inflow entering in the air inlet control box right side (53) by the air inlet pipeline right side (54) is passed through the regulation on the control valve right side (56), and the air inlet control box right side (53) is communicated with the sucker base right side (55).

3. a kind of Double spindle type ultra-precise fly miller according to claim 1, it is characterized in that: a described Horizontal electric axis system left side (49) is identical with the Horizontal electric axis system right side (48) structure and be symmetrical arranged with respect to the vertical center line of planer-type lathe bed (46), the Horizontal electric axis system right side (48) comprises the fixed dam right side (12), the main shaft right side (14), the electric machine support right side (6), the thrust plate right side (5), the cutterhead right side (16), the cutting tool assembly right side (15), the axle sleeve right side (9), axle is the support right side (11), grease chamber's cover right (10) and the direct current output motor right side (4), the column right side (45) is provided with inner chamber, axle is that the support right side (11) is positioned at one end of the column right side (45) inner chamber affixed, axle is that the support right side (11) is affixed by the fixed dam right side (12) and the column right side (45), the direct current transportation machine right side (4) is arranged in the column right side (45) inner chamber and is packed on the column right side (45) by the electric machine support right side (6), the output shaft (3) on the direct current output motor right side (4) is affixed with the one end on the main shaft right side (14) by the thrust plate right side (5), the other end on the main shaft right side (14) and the cutterhead right side (16) are affixed, between the axle sleeve right side (9) and the thrust plate right side (5), leave the first gap (D), between the axle sleeve right side (9) and the cutterhead right side (16), leave the second gap (E), the axle sleeve right side (9) is sleeved on the main shaft right side (14), between the axle sleeve right side (9) and the main shaft right side (14), leave third space (F), it is on the support right side (11) that the axle sleeve right side (9) is packed in axle, on the outer wall on the axle sleeve right side (9), be along the circumferential direction processed with the annular groove right side (9-1), on the axle sleeve right side (9), be processed with multiple axially extending bores right side (17) and multiple radial direction through hole right side (43), grease chamber's cover right (10) comprises two semi-rings (10-1), two semi-rings (10-1) are relatively sleeved on the axle sleeve right side (9) above and are positioned at the annular groove right side (9-1), two semi-rings (10-1) docking forms grease chamber's cover right (10), between the main shaft right side (14) and grease chamber's cover right (10), form the right side, grease chamber (50), multiple axially extending bores right side (17) is all communicated with the right side, grease chamber (50) with multiple radial direction through hole right side (43).

4. according to a kind of Double spindle type ultra-precise fly miller described in claim 1,2 or 3, it is characterized in that: described air vibration isolation support system (37) comprises air cushion plate (33), vibration isolation air cushion (34), studdle (35), holding nut (36) and base for supporting (32); Air cushion plate (33) is fixedly installed on the upper end of vibration isolation air cushion (34), vibration isolation air cushion (34) is connected with holding nut (36) by studdle (35), the center of base for supporting (32) is provided with connecting hole, and holding nut (36) is fixedly installed in the connecting hole of base for supporting (32).

5. a kind of Double spindle type ultra-precise fly miller according to claim 1, it is characterized in that: a described slide carriage left side (25) is upper is provided with the first oil pocket (28) along its thickness direction, vertical upper slide carriage (23) is upper is provided with the second oil pocket (28-1) along its thickness direction, a vertical lower slide carriage left side (29) and the vertical lower slide carriage right side (52) are above respectively equipped with the 3rd oil pocket (28-3) along thickness direction separately, and the slide carriage right side (51) are upper is provided with the 4th oil pocket (28-2) along its thickness direction; Between vertical guide rail (24) and a slide carriage left side (25) adjacently situated surfaces, form the first oil sealing surface (27), between vertical guide rail (24) and vertical upper slide carriage (23) adjacently situated surfaces, form the second oil sealing surface (27-1), between vertical guide rail (24) and a vertical lower slide carriage left side (29) and the vertical lower slide carriage right side (52) adjacently situated surfaces, form respectively the 3rd oil sealing surface (27-3), between vertical guide rail (24) and the slide carriage right side (51) adjacently situated surfaces, form the 4th oil sealing surface (27-2).

6. according to a kind of Double spindle type ultra-precise fly miller described in claim 1 or 5, it is characterized in that: the upper edge of described pedestal (31) is provided with boss (47).